Detecting a secondary cosmic neutrino background from Majoron decays in neutrino capture experiments

Chacko, Zackaria; Du, Peizhi; Geller, Michael

doi:10.1103/physrevd.100.015050

Cited by 26 publications

(25 citation statements)

References 60 publications

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“…One interesting aspect of DR (for a set of representative ideas see Refs. [14][15][16][17][18][19][20][21][22][23][24][25][26]) is that it can be created in a non-thermal way, and therefore differ in energy from the characteristic energies of the quanta of the cosmic microwave background. In this paper we will discuss some observable signatures of interacting DR in the regime when ω DR ω CMB holds for the respective typical energies.…”

Section: Introductionmentioning

confidence: 99%

Terrestrial Probes of Electromagnetically Interacting Dark Radiation

Kuo,

Pospelov,

Pradler

2021

Preprint

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We study the possibility that dark radiation, sourced through the decay of dark matter in the late Universe, carries electromagnetic interactions. The relativistic flux of particles induces recoil signals in direct detection and neutrino experiments through its interaction with millicharge, electric/magnetic dipole moments, or anapole moment/charge radius. Taking the DM lifetime as 35 times the age of the Universe, as currently cosmologically allowed, we show that direct detection (neutrino) experiments have complementary sensitivity down to ∼ 10 −11 (10 −12 ), dχ/µχ ∼ 10 −9 µB (10 −13 µB), and aχ/bχ ∼ 10 −2 GeV −2 (10 −8 GeV −2 ) on the respective couplings. Finally, we show that such dark radiation can lead to a satisfactory explanation of the recently observed XENON1T excess in the electron recoil signal without being in conflict with other bounds.

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Section: Introductionmentioning

confidence: 99%

Terrestrial Probes of Electromagnetically Interacting Dark Radiation

Kuo,

Pospelov,

Pradler

2021

Preprint

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“…This interesting application of a neutrino-mass experiment as an indirect dark-matter experiment has been proposed in Refs. [113,114], and applied to the proposed PTOLEMY experiment, see Fig. 15.…”

Section: Other New Physicsmentioning

confidence: 99%

KATRIN: Status and Prospects for the Neutrino Mass and Beyond

Aker,

Balzer,

Batzler

et al. 2022

Preprint

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The Karlsruhe Tritium Neutrino (KATRIN) experiment is designed to measure a high-precision integral spectrum of the endpoint region of T2 β decay, with the primary goal of probing the absolute mass scale of the neutrino. After a first tritium commissioning campaign in 2018, the experiment has been regularly running since 2019, and in its first two measurement campaigns has already achieved a sub-eV sensitivity. After 1000 days of data-taking, KATRIN's design sensitivity is 0.2 eV at the 90 % confidence level. In this white paper we describe the current status of KATRIN; explore prospects for measuring the neutrino mass and other physics observables, including sterile neutrinos and other beyond-Standard-Model hypotheses; and discuss research-anddevelopment projects that may further improve the KATRIN sensitivity.

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“…5 The isocurvature bound as well as the other constraints can be satisfied. Interestingly, such a light axion dark matter with M φ ∼ 0.01 − 1 eV and f φ ∼ 10 6 − 10 7 GeV can be searched in the IAXO experiment [75][76][77] or the PTOLEMY experiment [78][79][80] if the the axion couples to photons or neutrinos.…”

Section: Delayed Onset Of Oscillations and πNflationmentioning

confidence: 99%

Stochastic Axion Dark Matter in Axion Landscape

Nakagawa,

Takahashi,

Yin

2020

Preprint

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We study the stochastic axion dark matter scenario in the axion landscape, where one of the axions is light and stable and therefore explains dark matter. If the axion mass at the potential is a typical value of the curvature along the direction, the potential can be well approximated by a quadratic mass term. On the other hand, if the axion mass happens to be suppressed in the vicinity of the minimum, the potential may be approximated by a quartic potential plus a suppressed quadratic one, for which the initial angle, and thus the axion abundance, can be significantly suppressed compared to the quadratic case. We delineate the viable parameter region by taking account of various observational constraints, and find that a broader range of the inflation scale is allowed. Also, if the curvature of the potential is suppressed over a certain range of the potential, the onset of coherent oscillations can be delayed. Then, the axion dark matter with a small decay constant is possible. We also discuss the πnflation mechanism to realize the hilltop initial condition in the stochastic axion scenario.

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Detecting a secondary cosmic neutrino background from Majoron decays in neutrino capture experiments

Cited by 26 publications

References 60 publications

Terrestrial Probes of Electromagnetically Interacting Dark Radiation

Terrestrial Probes of Electromagnetically Interacting Dark Radiation

KATRIN: Status and Prospects for the Neutrino Mass and Beyond

Stochastic Axion Dark Matter in Axion Landscape

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